LAPW frozen-phonon calculation, shell model lattice dynamics and specific-heat measurement of SnO

Abstract

An ab-initio Linear Augmented Plane-Wave (LAPW) calculation of the zone-centered phonon frequencies of SnO has been performed. Eg symmetry has been ascribed to the mode observed at 113 cm-1 in Raman measurements, discarding a previous B1g assignement. The other phonon modes measured by Raman spectroscopy are also well reproduced. A new shell-model has also been developed, that gives good agreement of the zone-centered frequencies compared to the measured data and the LAPW results. Specific heat measurements have been performed between 5 K and 110 K. Computation of the specific heat and the M\"ossbauer recoilless fraction with the improved shell-model shows a good agreement with the experimental data as a function of temperature.

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